DE112015000912B4 - Battery pack - Google Patents

Abstract

A battery pack (10) comprising: a case (11) having a frame (18) having a through hole (31) and a lid (33) fixed to the frame (18) to close the through hole (31) close, the frame (18) having a through hole surrounding portion (32) surrounding the through hole (31), the lid (33) being fixed to the through hole surrounding portion (32) by a screw (B1), and wherein when an internal pressure of the housing (11) increases, a portion of the lid (33) is deformed in a direction in which the portion is separated from the through-hole surrounding portion (32) to relieve the internal pressure; a battery cell (22) which is in the housing ( 11) a gasket (36) disposed between the lid (33) and the through-hole surrounding portion (32) to hermetically seal the housing (11); and a spacer (37) disposed between the lid (33) and the through-hole surrounding portion (32) to maintain a gap between the lid (33) and the through-hole surrounding portion (32), the lid (33) with the seal (36 ) is in contact to hermetically seal the housing (11) and the cover (33) is in contact with the spacer element (37), and to close the through hole (31) the cover (33) with the seal (36) and is brought into contact with the spacer element (37), and wherein the spacer element (37) has a higher resistance to deformation than the seal (36).

Description

TECHNICAL AREA

The present invention relates to a battery pack that houses a battery cell in a housing.

BACKGROUND OF THE PRIOR ART

Patent Document 1 discloses an example of a battery module that houses battery cells that are connected and integrated in a frame.

PRIOR ART DOCUMENTS

PATENT DOCUMENT

• Patent Document 1: Japanese Patent Application Laid-Open JP 2013-171796 A
• Patent document 2: JP 2013 89375 A
• Patent document 3: DE 44 11 289 A1
• Patent document 4: CN 202 749 428 U

SUMMARY OF THE INVENTION

PROBLEMS TO BE SOLVED BY THE INVENTION

Every battery cell of the JP 2013-171796 A has a release valve that releases gas generated in the battery cell out of the battery cell. However, when the gas is released from the battery cell and into the frame, the pressure in the frame increases. This can damage the frame.

The JP 2013 89375 A discloses a battery pack with a lid for closing a through hole of a housing. The lid is fixed by a screw. A seal is arranged between the lid and a through hole surrounding portion. Furthermore, a spacer is arranged between the lid and the through hole surrounding portion.

The DE 44 11 289 A1 discloses a battery pack with a lid for closing a through hole of a housing. The lid is pressed against a through-hole surrounding portion of the housing by means of another lid. The lid has a seal on the outside. More specifically, the outside of the lid is embedded in the seal. The further cover presses against the seal in a state in which the cover closes the through hole of the housing.

The CN 202 749 428 U discloses a battery pack with a lid for closing a through hole of a housing. The cover has an internal projection which is placed in an intermediate space or gap of the housing. A seal is arranged in the gap of the housing. When the lid closes the housing, the inner projection can press the seal.
It is an object of the present invention to provide a battery pack that restricts an excessive increase in the pressure of the frame while ensuring a hermetic seal of the frame.

THE SOLUTION OF THE PROBLEM

The object is achieved by a battery pack with the features of claim 1. Advantageous further developments are the subject of the dependent claims. In the structure explained above, the seal hermetically seals the housing. Furthermore, when the internal pressure of the housing increases, the lid deforms and relieves the internal pressure of the housing.

When the tightening force of the screw compresses the seal, the above structure hermetically seals the housing. However, depending on the tightening force of the screw, the compression ratio of the seal may be insufficient and result in an insufficient hermetic seal of the housing. Alternatively, the seal can be damaged if it is excessively compressed.

In this regard, the spacer restricts the movement of the lid to the through-hole surrounding portion when the screw is tightened. Accordingly, the spacer allows the compression ratio of the seal to be regulated and enables the seal to be compressed in a suitable manner.

Figure list

• 1A shows a perspective view of an embodiment of a battery pack.
• 1B shows an exploded perspective view of a through hole and a lid of the battery pack of FIG 1A .
• 2nd shows a cross-sectional view taken along a line 2-2 in 1B .
• 3rd shows a cross-sectional view taken along a line 3-3 in 2nd .
• 4th shows a cross-sectional view of the battery cell of FIG 1A .

EMBODIMENTS OF THE INVENTION

An embodiment of a battery pack 10th is described below.

Like this in 1A is shown has the battery pack 10th a housing 11 and battery modules 21 that in the housing 11 are accommodated. Any battery module 21 has battery cells 22 . The housing 11 has a frame 18th and a lid 33 . The frame 18th has a rectangular through hole 31 . The lid 33 is a rectangular plate that has the through hole 31 closes.

The frame 18th has a main body 12th with a shape of a square box. The main body 12th has an opening, a bottom wall (not shown) and four side walls that extend from the edges of the bottom wall. The frame 18th also has a flat plate 17th that the opening of the main body 12th covered. The main body 12th and the flat plate 17th are connected to each other for example by an adhesive.

Like this in the 1A and 1B has one of the four side walls 14 the through hole 31 . A section of the frame 18th (especially a side wall 14 of the main body 12th ) of the through hole 31 defines, that is, the section that defines the through hole 31 surrounds is called a through hole surrounding section 32 designated. The through hole 31 is through the lid 33 closed that at the through hole surrounding portion 32 is fixed.

Like this in the 2nd and 3rd has the through hole surrounding portion 32 Mounting holes 34 . The wall surface that each mounting hole 34 is threaded. The mounting holes 34 are arranged on sides facing the through hole 31 are opposite. More specifically, the mounting holes 34 in the through hole surrounding section 32 arranged at sections that meet the two lateral ends of the through hole 31 correspond. Three mounting holes 34 are on each side of the through hole 31 in the longitudinal direction of the through hole 31 aligned. The lid 33 has insertion holes 35 that the mounting holes 34 correspond and stand out through the lid 33 extend in the direction of thickness. In the description below are of the four ends 41 to 44 of the lid 33 the ends that correspond to the two opposite long sides as the first end 41 and the second end 42 and the ends corresponding to the two opposite short sides are the third end 43 and the fourth end 44 designated.

Like this in the 1A and 1B are the insertion holes 35 at the first ends 41 and the second ends 42 arranged. Three insertion holes 35 are along each of the sides of the first end 41 and the second end 42 (long sides of the lid 33 ) aligned. The insertion holes 35 are not at the corners of the lid 33 arranged. The insertion holes 35 are aligned in the direction in which the third end 43 and the fourth end 44 are opposite to each other (the direction from the third end 43 to the fourth end 44 ).

That means the two lateral ends of the lid 33 point the insertion holes 35 on. The third end 43 and the fourth end 44 point the insertion holes 35 not on.

Like this in the 2nd and 3rd is shown is a seal 36 and two spacers 37 between the lid 33 and the through hole surrounding portion 32 arranged. The seal 36 has the shape of a square frame and stands with the entire peripheral area of the lid 33 in contact to the housing 11 hermetically sealed. Any spacer 37 is to the inside of the section of the lid 33 with the seal 36 is in contact. The spacers 37 are made of resin (plastic) and have a higher resistance to deformation than the seal 36 . In this way the spacers are 37 on the inside of the seal 36 arranged. The two spacers 37 , each in the shape of a rectangular plate, are on both sides of the through hole 31 each opposite the first end 41 and the second end 42 of the lid 33 arranged. That means the two spacer elements 37 extend in the longitudinal direction of the lid 33 and are between the through hole surrounding portion 32 and the first and second ends 41 and 42 of the lid 33 arranged. Any spacer 37 has three insertion holes 38 that the mounting holes 34 and the insertion holes 35 correspond. Each spacer also functions 37 to maintain a space (gap) between the lid 32 and the through hole surrounding portion 32 .

The lid 33 , the two spacers 37 and the through hole surrounding portion 32 are arranged so that the insertion holes 35 who have favourited Insertion Holes 38 and the mounting holes 34 are in alignment. Screws B1 are through the insertion holes of the lid 33 and the insertion holes of the spacers 37 inserted and at the mounting holes 34 attached to the lid 33 who have favourited Seal 36 and the two spacers 37 at the through hole surrounding section 32 to fix. This is how the screws are B1 through each spacer 37 introduced.

Like this in 4th each battery cell is shown 22 (for example, a rechargeable lithium ion or nickel metal hydride battery) a battery case 23 . An electrode assembly 24th and an electrolytic solution 25th are in the battery case 23 housed. The battery case 23 has a box-shaped body 26 which is the electrode assembly 24th houses and has an opening and a bottom wall, and a cover 27 , which has the shape of a rectangular plate and the opening of the housing body 26 closes. The cover 27 has a hole 28 that is covered by the cover 27 extends in the direction of thickness. A dispensing valve 29 that in the hole 28 is arranged, opens when the internal pressure of the battery case 23 exceeds a specific pressure. The "specific pressure" is set at a pressure that is the discharge valve 29 breaks before the battery case 23 is damaged.

Operation of the battery pack 10th of the present embodiment is described below.

If there is an abnormality in a battery cell 22 occurs and the corresponding dispensing valve 29 opens, gas is in the housing 11 from the battery case 23 submitted. That from the battery cell 22 The gas released increases the internal pressure of the housing 11 . Like this in 3rd is shown when the internal pressure of the housing 11 increases to a predetermined pressure, the third end 43 and the fourth end 44 of the lid 33 deformed in a direction in which the third end 43 and the fourth end 44 from the through hole surrounding portion 32 are separated (semicolon lines in 3rd show the deformation of only the fourth end 44 ). More specifically, the deformed portions extend from the portion where the screws are B1 that are closest to the third end 43 are on the side of the third end 43 are arranged, and from the section where the screws B1 leading to the fourth end 44 are closest, on the side of the fourth end 44 are arranged. If the internal pressure of the housing 11 increases to the predetermined pressure, the portions of the lid 33 that further to the outside from the outermost screws viewed in the longitudinal direction B1 are deformed in the direction in which the portions from the through-hole surrounding portion 32 be separated. In this way, the sections of the lid 33 deformed so that the gas from the housing 11 is released. The “predetermined pressure” is set to be lower than the pressure that the housing 11 breaks. The lid 33 partially acts as a pressure relief valve to relieve the pressure of the housing 11 to relieve.

The two spacers 37 are between the lid 33 and the through hole surrounding portion 32 arranged according to the sections where the screws B1 are introduced. Thus limit if the screws B1 be attached, the spacers 37 tightening the screws B1 . The one on the seal 36 through the lid 33 applied force when tightening the screws B1 can by the relationship between the deformation resistance of the spacers 37 and the deformation resistance of the seal 36 , the positional relationship of the spacer elements 37 , the seal 36 and the screws B1 , the relationship between the thickness of the spacers 37 and the thickness of the seal 36 and the like are regulated. Thus the compression ratio of the seal 36 be regulated and excessive or insufficient compression (compression) of the seal 36 can be avoided by choosing the thickness of the spacer elements 37 , the deformation resistance of the spacer elements 37 and the locations of the spacers 37 .

1. (1) Die Abstandselemente 37 sind zwischen dem Deckel 33 und dem Durchgangslochumgebungsabschnitt 32 angeordnet. Die Abstandselemente 37 ermöglichen, dass das Kompressionsverhältnis der Dichtung 36 reguliert wird. Somit können beim Festziehen der Schrauben B1 Situationen vermieden werden, bei denen die Kompression (das Zusammendrücken) der Dichtung 36 unzureichend oder übermäßig ist. Dies ermöglicht, dass die Dichtung 36 in geeigneter Weise komprimiert (zusammengedrückt) wird.
2. (2) Die Abstandselemente 37 haben einen höheren Verformungswiderstand als die Dichtung 36. Somit kann das Festziehen der Schrauben B1 in einer geeigneten Weise reguliert werden, und ein übermäßiges Komprimieren der Dichtung 36 kann vermieden werden.
3. (3) Die Dichtung 36 steht mit dem gesamten Umfangsbereich des Deckels 33 in Kontakt. Die Abstandselemente 37 sind zu der inneren Seite von der Dichtung 36 hin angeordnet. Das heißt die Abstandselemente 37 sind zu der Innenseite hin von den Abschnitten hin angeordnet, an denen die Dichtung 36 mit dem Deckel 33 in Kontakt steht. Somit ist das Abstandselement 37 durch die Dichtung 36 umgeben und wird der Umgebungsluft nicht ausgesetzt. Dies verhindert eine Verschlechterung der Abstandselemente 37.
4. (4) Eine Vielzahl vorgesehener Schauben B1 sind durch jedes Abstandselement 37 eingeführt. Wenn ein separates Abstandselement 37 für jede Schraube B1 vorgesehen ist, kann das Abstandselement 37 angeordnet werden, bevor die Schraube B1 festgezogen wird, und kann Schwierigkeiten verursachen, wenn die Schraube B1 festgezogen ist. Das Festziehen der Schauben B wird erleichtert, wenn eine Vielzahl an Schrauben B1 das gleiche Abstandselement 37 wie bei dem vorliegenden Ausführungsbeispiel miteinander teilen.
5. (5) Die Abstandselemente 37 sind aus Harz (Kunststoff) ausgebildet. Somit rosten die Abstandselemente 37 nicht. Dadurch werden Situationen vermieden, bei denen Rost auf dem Deckel 33 und dem Durchgangslochumgebungsabschnitt 32 die Verformung des Deckels 33 beeinträchtigt.
6. (6) Eine Dichtung (beispielsweise ein O-Ring) kann in eine ringartige Nut gesetzt werden, die zumindest an dem Deckel 33 und/oder dem Durchgangslochumgebungsabschnitt 32 ausgebildet ist. In einem derartigen Aufbau kann Rost bewirken, dass der Deckel 33 an dem Durchgangslochumgebungsabschnitt 32 anhaftet und die Verformung des Deckels 33 beeinträchtigt (diese stört). Die Abstandselemente 37 sind zwischen dem Deckel 33 und dem Durchgangslochumgebungsabschnitt 32 angeordnet und behalten den Zwischenraum zwischen dem Deckel 33 und dem Durchgangslochumgebungsabschnitt 32 bei und verringern die Kontaktfläche zwischen dem Deckel 33 und dem Durchgangslochumgebungsabschnitt 32. Dadurch werden Situationen vermieden, bei denen Rost den Deckel 33 an dem Durchgangslochumgebungsabschnitt 32 fixiert.

The exemplary embodiment explained above has the advantages described below.

1. (1) The spacers 37 are between the lid 33 and the through hole surrounding portion 32 arranged. The spacers 37 allow the compression ratio of the seal 36 is regulated. Thus, when tightening the screws B1 Avoid situations where compression (compression) of the seal 36 is insufficient or excessive. This allows the seal 36 is suitably compressed.
2. (2) The spacers 37 have a higher resistance to deformation than the seal 36 . This can tighten the screws B1 be regulated in an appropriate manner, and excessive compression of the seal 36 can be avoided.
3. (3) The seal 36 stands with the entire peripheral area of the lid 33 in contact. The spacers 37 are to the inside of the seal 36 arranged towards. That means the spacer elements 37 are arranged towards the inside from the sections where the seal 36 with the lid 33 is in contact. So the spacer 37 through the seal 36 surrounded and is not exposed to the ambient air. This prevents the spacer elements from deteriorating 37 .
4. (4) A variety of screws provided B1 are through each spacer 37 introduced. If a separate spacer 37 for every screw B1 is provided, the spacer 37 be arranged before the screw B1 is tightened, and can cause difficulty if the screw B1 is tightened. Tightening screws B is easier if there are a large number of screws B1 the same spacer 37 share with each other as in the present embodiment.
5. (5) The spacers 37 are made of resin (plastic). The spacer elements thus rust 37 Not. This will avoid situations where there is rust on the lid 33 and the through hole surrounding portion 32 the deformation of the lid 33 impaired.
6. (6) A seal (e.g. an O-ring) can be placed in a ring-like groove, at least on the cover 33 and / or the through hole surrounding portion 32 is trained. In such a structure, rust can cause the lid 33 at the through hole surrounding section 32 adheres and the deformation of the lid 33 impaired (this disturbs). The spacers 37 are between the lid 33 and the through hole surrounding portion 32 arranged and keep the space between the lid 33 and the through hole surrounding portion 32 and reduce the contact area between the lid 33 and the through hole surrounding portion 32 . This will avoid situations where rust will cover the lid 33 at the through hole surrounding portion 32 fixed.

The exemplary embodiment explained above can be modified as described below.

In the exemplary embodiment explained above, the spacer elements can 37 be made of metal. In this case the seal is there 36 also in contact with the entire peripheral area of the lid 33 . This will expose the spacer elements 37 restricted to the ambient air. This avoids situations in which rust is on the metal spacers 37 forms and causes the lid 33 and the through hole surrounding portion 32 on the spacers 37 cling to. Even if the spacers 37 rust are the spacers 37 to the inside of the seal 36 arranged towards. This causes a deformation of the lid 33 influenced almost imperceptibly, and the influence of the rust is slight.

The spacers 37 can to the outside of the seal 36 be arranged. In this case, it is preferred that the spacer elements 37 are made of resin, or the spacers 37 are formed such that a resin coating is applied to metal in order to limit the formation of rust.

In the exemplary embodiment explained above, it has a side wall 14 of the frame 18th the through holes 31 , and the seal 36 and the spacers 37 are between the lid 33 and the through hole surrounding portion 32 the side wall 14 arranged. However, the through holes can be anywhere in the frame 18th be arranged. That is the seal 36 and the spacers 37 need only be arranged between a through hole surrounding portion and a lid that closes a through hole.

The spacers 37 can be elements that have a lower resistance to deformation than the seal 36 to have.

A spacer 37 that is just a screw B1 can be applied.

The spacers 37 can have any shape. For example, a frame-like spacer can be used, the through hole 31 surrounds. The number of spacers 37 is not limited to two and can be more than two or less than two.

In the exemplary embodiment explained above, the screws are B1 all through the spacers 37 introduced. Instead, just some of the screws B1 through the spacers 37 be introduced. For example, screws B1 by the spacers 37 are introduced, and screws B1 that are not due to the spacers 37 are introduced, arranged alternately. Furthermore, the screws B1 not through the spacers 37 be introduced.

The sentence from the through hole 31 and the lid 33 may be multiple in number (the number may be increased), and the seal 36 and the spacers 37 can between each through hole surrounding section 32 and the corresponding lid 33 be arranged.

Claims (7)

A battery pack (10) comprising: a case (11) having a frame (18) having a through hole (31) and a lid (33) fixed to the frame (18) to close the through hole (31) close, the frame (18) having a through hole surrounding portion (32) surrounding the through hole (31), the The lid (33) is fixed to the through hole surrounding portion (32) by a screw (B1), and wherein when an internal pressure of the housing (11) increases, a portion of the lid (33) is deformed in a direction in which the portion of separating the through hole surrounding portion (32) to relieve the internal pressure; a battery cell (22) housed in the housing (11); a seal (36) disposed between the lid (33) and the through-hole surrounding portion (32) to hermetically seal the housing (11); and a spacer (37) disposed between the lid (33) and the through-hole surrounding portion (32) to maintain a gap between the lid (33) and the through-hole surrounding portion (32), the lid (33) with the seal ( 36) is in contact to hermetically seal the housing (11) and the cover (33) is in contact with the spacer element (37), and to close the through hole (31) the cover (33) with the seal (36) and the spacer (37) is brought into contact, and wherein the spacer (37) has a higher resistance to deformation than the seal (36). Battery pack (10) according to Claim 1 , wherein the seal (36) is constructed so that it is in contact with an entire peripheral region of the cover (33). Battery pack (10) according to one of the Claims 1 or 2nd , wherein the spacer element (37) is arranged towards an inner side of the seal (36). Battery pack (10) according to one of the Claims 1 or 2nd wherein the spacer (37) is disposed to the inside of a portion of the lid (33) that is in contact with the seal (36). Battery pack (10) according to one of the Claims 1 to 4th wherein a plurality of screws (B1) are inserted through the spacer (37). Battery pack (10) according to one of the Claims 1 to 5 , wherein the spacer element (37) is made of plastic. Battery pack (10) according to the Claims 1 to 6 wherein the spacer (37) is one of two spacers (37) extending parallel to each other on opposite sides of the through hole (31).

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